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|
// SPDX-License-Identifier: GPL-3.0-or-later
#include "internal.h"
#define QUERY_TARGET_MAX_REALLOC_INCREASE 500
#define query_target_realloc_size(size, start) \
(size) ? ((size) < QUERY_TARGET_MAX_REALLOC_INCREASE ? (size) * 2 : (size) + QUERY_TARGET_MAX_REALLOC_INCREASE) : (start);
static void query_metric_release(QUERY_TARGET *qt, QUERY_METRIC *qm);
static void query_dimension_release(QUERY_DIMENSION *qd);
static void query_instance_release(QUERY_INSTANCE *qi);
static void query_context_release(QUERY_CONTEXT *qc);
static void query_node_release(QUERY_NODE *qn);
static __thread QUERY_TARGET *thread_qt = NULL;
static struct {
struct {
SPINLOCK spinlock;
size_t count;
QUERY_TARGET *base;
} available;
struct {
SPINLOCK spinlock;
size_t count;
QUERY_TARGET *base;
} used;
} query_target_base = {
.available = {
.spinlock = NETDATA_SPINLOCK_INITIALIZER,
.base = NULL,
.count = 0,
},
.used = {
.spinlock = NETDATA_SPINLOCK_INITIALIZER,
.base = NULL,
.count = 0,
},
};
static void query_target_destroy(QUERY_TARGET *qt) {
__atomic_sub_fetch(&netdata_buffers_statistics.query_targets_size, qt->query.size * sizeof(*qt->query.array), __ATOMIC_RELAXED);
freez(qt->query.array);
__atomic_sub_fetch(&netdata_buffers_statistics.query_targets_size, qt->dimensions.size * sizeof(*qt->dimensions.array), __ATOMIC_RELAXED);
freez(qt->dimensions.array);
__atomic_sub_fetch(&netdata_buffers_statistics.query_targets_size, qt->instances.size * sizeof(*qt->instances.array), __ATOMIC_RELAXED);
freez(qt->instances.array);
__atomic_sub_fetch(&netdata_buffers_statistics.query_targets_size, qt->contexts.size * sizeof(*qt->contexts.array), __ATOMIC_RELAXED);
freez(qt->contexts.array);
__atomic_sub_fetch(&netdata_buffers_statistics.query_targets_size, qt->nodes.size * sizeof(*qt->nodes.array), __ATOMIC_RELAXED);
freez(qt->nodes.array);
freez(qt);
}
void query_target_release(QUERY_TARGET *qt) {
if(unlikely(!qt)) return;
internal_fatal(!qt->internal.used, "QUERY TARGET: qt to be released is not used");
simple_pattern_free(qt->nodes.scope_pattern);
qt->nodes.scope_pattern = NULL;
simple_pattern_free(qt->nodes.pattern);
qt->nodes.pattern = NULL;
simple_pattern_free(qt->contexts.scope_pattern);
qt->contexts.scope_pattern = NULL;
simple_pattern_free(qt->contexts.pattern);
qt->contexts.pattern = NULL;
simple_pattern_free(qt->instances.pattern);
qt->instances.pattern = NULL;
simple_pattern_free(qt->instances.chart_label_key_pattern);
qt->instances.chart_label_key_pattern = NULL;
simple_pattern_free(qt->instances.labels_pattern);
qt->instances.labels_pattern = NULL;
simple_pattern_free(qt->query.pattern);
qt->query.pattern = NULL;
// release the query
for(size_t i = 0, used = qt->query.used; i < used ;i++) {
QUERY_METRIC *qm = query_metric(qt, i);
query_metric_release(qt, qm);
}
qt->query.used = 0;
// release the dimensions
for(size_t i = 0, used = qt->dimensions.used; i < used ; i++) {
QUERY_DIMENSION *qd = query_dimension(qt, i);
query_dimension_release(qd);
}
qt->dimensions.used = 0;
// release the instances
for(size_t i = 0, used = qt->instances.used; i < used ;i++) {
QUERY_INSTANCE *qi = query_instance(qt, i);
query_instance_release(qi);
}
qt->instances.used = 0;
// release the contexts
for(size_t i = 0, used = qt->contexts.used; i < used ;i++) {
QUERY_CONTEXT *qc = query_context(qt, i);
rrdcontext_release(qc->rca);
qc->rca = NULL;
}
qt->contexts.used = 0;
// release the nodes
for(size_t i = 0, used = qt->nodes.used; i < used ; i++) {
QUERY_NODE *qn = query_node(qt, i);
query_node_release(qn);
}
qt->nodes.used = 0;
qt->db.minimum_latest_update_every_s = 0;
qt->db.first_time_s = 0;
qt->db.last_time_s = 0;
for(size_t g = 0; g < MAX_QUERY_GROUP_BY_PASSES ;g++)
qt->group_by[g].used = 0;
qt->id[0] = '\0';
spinlock_lock(&query_target_base.used.spinlock);
DOUBLE_LINKED_LIST_REMOVE_ITEM_UNSAFE(query_target_base.used.base, qt, internal.prev, internal.next);
query_target_base.used.count--;
spinlock_unlock(&query_target_base.used.spinlock);
qt->internal.used = false;
thread_qt = NULL;
if (qt->internal.queries > 1000) {
query_target_destroy(qt);
}
else {
spinlock_lock(&query_target_base.available.spinlock);
DOUBLE_LINKED_LIST_APPEND_ITEM_UNSAFE(query_target_base.available.base, qt, internal.prev, internal.next);
query_target_base.available.count++;
spinlock_unlock(&query_target_base.available.spinlock);
}
}
static QUERY_TARGET *query_target_get(void) {
spinlock_lock(&query_target_base.available.spinlock);
QUERY_TARGET *qt = query_target_base.available.base;
if (qt) {
DOUBLE_LINKED_LIST_REMOVE_ITEM_UNSAFE(query_target_base.available.base, qt, internal.prev, internal.next);
query_target_base.available.count--;
}
spinlock_unlock(&query_target_base.available.spinlock);
if(unlikely(!qt))
qt = callocz(1, sizeof(*qt));
spinlock_lock(&query_target_base.used.spinlock);
DOUBLE_LINKED_LIST_APPEND_ITEM_UNSAFE(query_target_base.used.base, qt, internal.prev, internal.next);
query_target_base.used.count++;
spinlock_unlock(&query_target_base.used.spinlock);
qt->internal.used = true;
qt->internal.queries++;
thread_qt = qt;
return qt;
}
// this is used to release a query target from a cancelled thread
void query_target_free(void) {
query_target_release(thread_qt);
}
// ----------------------------------------------------------------------------
// query API
typedef struct query_target_locals {
time_t start_s;
QUERY_TARGET *qt;
RRDSET *st;
const char *scope_nodes;
const char *scope_contexts;
const char *nodes;
const char *contexts;
const char *instances;
const char *dimensions;
const char *chart_label_key;
const char *labels;
const char *alerts;
long long after;
long long before;
bool match_ids;
bool match_names;
size_t metrics_skipped_due_to_not_matching_timeframe;
char host_node_id_str[UUID_STR_LEN];
QUERY_NODE *qn; // temp to pass on callbacks, ignore otherwise - no need to free
} QUERY_TARGET_LOCALS;
struct storage_engine *query_metric_storage_engine(QUERY_TARGET *qt, QUERY_METRIC *qm, size_t tier) {
QUERY_NODE *qn = query_node(qt, qm->link.query_node_id);
return qn->rrdhost->db[tier].eng;
}
static inline void query_metric_release(QUERY_TARGET *qt, QUERY_METRIC *qm) {
qm->plan.used = 0;
// reset the tiers
for(size_t tier = 0; tier < storage_tiers ;tier++) {
if(qm->tiers[tier].db_metric_handle) {
STORAGE_ENGINE *eng = query_metric_storage_engine(qt, qm, tier);
eng->api.metric_release(qm->tiers[tier].db_metric_handle);
qm->tiers[tier].db_metric_handle = NULL;
}
}
}
static bool query_metric_add(QUERY_TARGET_LOCALS *qtl, QUERY_NODE *qn, QUERY_CONTEXT *qc,
QUERY_INSTANCE *qi, size_t qd_slot, RRDMETRIC *rm, RRDR_DIMENSION_FLAGS options) {
QUERY_TARGET *qt = qtl->qt;
RRDINSTANCE *ri = rm->ri;
time_t common_first_time_s = 0;
time_t common_last_time_s = 0;
time_t common_update_every_s = 0;
size_t tiers_added = 0;
struct {
STORAGE_ENGINE *eng;
STORAGE_METRIC_HANDLE *db_metric_handle;
time_t db_first_time_s;
time_t db_last_time_s;
time_t db_update_every_s;
} tier_retention[storage_tiers];
for (size_t tier = 0; tier < storage_tiers; tier++) {
STORAGE_ENGINE *eng = qn->rrdhost->db[tier].eng;
tier_retention[tier].eng = eng;
tier_retention[tier].db_update_every_s = (time_t) (qn->rrdhost->db[tier].tier_grouping * ri->update_every_s);
if(rm->rrddim && rm->rrddim->tiers[tier].db_metric_handle)
tier_retention[tier].db_metric_handle = eng->api.metric_dup(rm->rrddim->tiers[tier].db_metric_handle);
else
tier_retention[tier].db_metric_handle = eng->api.metric_get(qn->rrdhost->db[tier].instance, &rm->uuid);
if(tier_retention[tier].db_metric_handle) {
tier_retention[tier].db_first_time_s = storage_engine_oldest_time_s(tier_retention[tier].eng->backend, tier_retention[tier].db_metric_handle);
tier_retention[tier].db_last_time_s = storage_engine_latest_time_s(tier_retention[tier].eng->backend, tier_retention[tier].db_metric_handle);
if(!common_first_time_s)
common_first_time_s = tier_retention[tier].db_first_time_s;
else if(tier_retention[tier].db_first_time_s)
common_first_time_s = MIN(common_first_time_s, tier_retention[tier].db_first_time_s);
if(!common_last_time_s)
common_last_time_s = tier_retention[tier].db_last_time_s;
else
common_last_time_s = MAX(common_last_time_s, tier_retention[tier].db_last_time_s);
if(!common_update_every_s)
common_update_every_s = tier_retention[tier].db_update_every_s;
else if(tier_retention[tier].db_update_every_s)
common_update_every_s = MIN(common_update_every_s, tier_retention[tier].db_update_every_s);
tiers_added++;
}
else {
tier_retention[tier].db_first_time_s = 0;
tier_retention[tier].db_last_time_s = 0;
tier_retention[tier].db_update_every_s = 0;
}
}
for (size_t tier = 0; tier < storage_tiers; tier++) {
if(!qt->db.tiers[tier].update_every || (tier_retention[tier].db_update_every_s && tier_retention[tier].db_update_every_s < qt->db.tiers[tier].update_every))
qt->db.tiers[tier].update_every = tier_retention[tier].db_update_every_s;
if(!qt->db.tiers[tier].retention.first_time_s || (tier_retention[tier].db_first_time_s && tier_retention[tier].db_first_time_s < qt->db.tiers[tier].retention.first_time_s))
qt->db.tiers[tier].retention.first_time_s = tier_retention[tier].db_first_time_s;
if(!qt->db.tiers[tier].retention.last_time_s || (tier_retention[tier].db_last_time_s && tier_retention[tier].db_last_time_s > qt->db.tiers[tier].retention.last_time_s))
qt->db.tiers[tier].retention.last_time_s = tier_retention[tier].db_last_time_s;
}
bool timeframe_matches =
(tiers_added &&
query_matches_retention(qt->window.after, qt->window.before, common_first_time_s, common_last_time_s, common_update_every_s))
? true : false;
if(timeframe_matches) {
if(ri->rrdset)
ri->rrdset->last_accessed_time_s = qtl->start_s;
if (qt->query.used == qt->query.size) {
size_t old_mem = qt->query.size * sizeof(*qt->query.array);
qt->query.size = query_target_realloc_size(qt->query.size, 4);
size_t new_mem = qt->query.size * sizeof(*qt->query.array);
qt->query.array = reallocz(qt->query.array, new_mem);
__atomic_add_fetch(&netdata_buffers_statistics.query_targets_size, new_mem - old_mem, __ATOMIC_RELAXED);
}
QUERY_METRIC *qm = &qt->query.array[qt->query.used++];
memset(qm, 0, sizeof(*qm));
qm->status = options;
qm->link.query_node_id = qn->slot;
qm->link.query_context_id = qc->slot;
qm->link.query_instance_id = qi->slot;
qm->link.query_dimension_id = qd_slot;
if (!qt->db.first_time_s || common_first_time_s < qt->db.first_time_s)
qt->db.first_time_s = common_first_time_s;
if (!qt->db.last_time_s || common_last_time_s > qt->db.last_time_s)
qt->db.last_time_s = common_last_time_s;
for (size_t tier = 0; tier < storage_tiers; tier++) {
internal_fatal(tier_retention[tier].eng != query_metric_storage_engine(qt, qm, tier), "QUERY TARGET: storage engine mismatch");
qm->tiers[tier].db_metric_handle = tier_retention[tier].db_metric_handle;
qm->tiers[tier].db_first_time_s = tier_retention[tier].db_first_time_s;
qm->tiers[tier].db_last_time_s = tier_retention[tier].db_last_time_s;
qm->tiers[tier].db_update_every_s = tier_retention[tier].db_update_every_s;
}
return true;
}
// cleanup anything we allocated to the retention we will not use
for(size_t tier = 0; tier < storage_tiers ;tier++) {
if (tier_retention[tier].db_metric_handle)
tier_retention[tier].eng->api.metric_release(tier_retention[tier].db_metric_handle);
}
return false;
}
static inline bool rrdmetric_retention_matches_query(QUERY_TARGET *qt, RRDMETRIC *rm, time_t now_s) {
time_t first_time_s = rm->first_time_s;
time_t last_time_s = rrd_flag_is_collected(rm) ? now_s : rm->last_time_s;
time_t update_every_s = rm->ri->update_every_s;
return query_matches_retention(qt->window.after, qt->window.before, first_time_s, last_time_s, update_every_s);
}
static inline void query_dimension_release(QUERY_DIMENSION *qd) {
rrdmetric_release(qd->rma);
qd->rma = NULL;
}
static QUERY_DIMENSION *query_dimension_allocate(QUERY_TARGET *qt, RRDMETRIC_ACQUIRED *rma, QUERY_STATUS status, size_t priority) {
if(qt->dimensions.used == qt->dimensions.size) {
size_t old_mem = qt->dimensions.size * sizeof(*qt->dimensions.array);
qt->dimensions.size = query_target_realloc_size(qt->dimensions.size, 4);
size_t new_mem = qt->dimensions.size * sizeof(*qt->dimensions.array);
qt->dimensions.array = reallocz(qt->dimensions.array, new_mem);
__atomic_add_fetch(&netdata_buffers_statistics.query_targets_size, new_mem - old_mem, __ATOMIC_RELAXED);
}
QUERY_DIMENSION *qd = &qt->dimensions.array[qt->dimensions.used];
memset(qd, 0, sizeof(*qd));
qd->slot = qt->dimensions.used++;
qd->rma = rrdmetric_acquired_dup(rma);
qd->status = status;
qd->priority = priority;
return qd;
}
static bool query_dimension_add(QUERY_TARGET_LOCALS *qtl, QUERY_NODE *qn, QUERY_CONTEXT *qc, QUERY_INSTANCE *qi,
RRDMETRIC_ACQUIRED *rma, bool queryable_instance, size_t *metrics_added, size_t priority) {
QUERY_TARGET *qt = qtl->qt;
RRDMETRIC *rm = rrdmetric_acquired_value(rma);
if(rrd_flag_is_deleted(rm))
return false;
QUERY_STATUS status = QUERY_STATUS_NONE;
bool undo = false;
if(!queryable_instance) {
if(rrdmetric_retention_matches_query(qt, rm, qtl->start_s)) {
qi->metrics.excluded++;
qc->metrics.excluded++;
qn->metrics.excluded++;
status |= QUERY_STATUS_EXCLUDED;
}
else
undo = true;
}
else {
RRDR_DIMENSION_FLAGS options = RRDR_DIMENSION_DEFAULT;
bool needed = false;
if (qt->query.pattern) {
// the user asked for specific dimensions
SIMPLE_PATTERN_RESULT ret = SP_NOT_MATCHED;
if(qtl->match_ids)
ret = simple_pattern_matches_string_extract(qt->query.pattern, rm->id, NULL, 0);
if(ret == SP_NOT_MATCHED && qtl->match_names && (rm->name != rm->id || !qtl->match_ids))
ret = simple_pattern_matches_string_extract(qt->query.pattern, rm->name, NULL, 0);
if(ret == SP_MATCHED_POSITIVE) {
needed = true;
options |= RRDR_DIMENSION_SELECTED | RRDR_DIMENSION_NONZERO;
}
else {
// the user selection does not match this dimension
// but, we may still need to query it
if (query_target_needs_all_dimensions(qt)) {
// this is percentage calculation
// so, we need this dimension to calculate the percentage
needed = true;
options |= RRDR_DIMENSION_HIDDEN;
}
else {
// the user did not select this dimension
// and the calculation is not percentage
// so, no need to query it
;
}
}
}
else {
// we don't have a dimensions pattern
// so this is a selected dimension
// if it is not hidden
if(rrd_flag_check(rm, RRD_FLAG_HIDDEN) || (rm->rrddim && rrddim_option_check(rm->rrddim, RRDDIM_OPTION_HIDDEN))) {
// this is a hidden dimension
// we don't need to query it
status |= QUERY_STATUS_DIMENSION_HIDDEN;
options |= RRDR_DIMENSION_HIDDEN;
if (query_target_needs_all_dimensions(qt)) {
// this is percentage calculation
// so, we need this dimension to calculate the percentage
needed = true;
}
}
else {
// this is a not hidden dimension
// and the user did not provide any selection for dimensions
// so, we need to query it
needed = true;
options |= RRDR_DIMENSION_SELECTED;
}
}
if (needed) {
if(query_metric_add(qtl, qn, qc, qi, qt->dimensions.used, rm, options)) {
(*metrics_added)++;
qi->metrics.selected++;
qc->metrics.selected++;
qn->metrics.selected++;
}
else {
undo = true;
qtl->metrics_skipped_due_to_not_matching_timeframe++;
}
}
else if(rrdmetric_retention_matches_query(qt, rm, qtl->start_s)) {
qi->metrics.excluded++;
qc->metrics.excluded++;
qn->metrics.excluded++;
status |= QUERY_STATUS_EXCLUDED;
}
else
undo = true;
}
if(undo)
return false;
query_dimension_allocate(qt, rma, status, priority);
return true;
}
static inline STRING *rrdinstance_create_id_fqdn_v1(RRDINSTANCE_ACQUIRED *ria) {
if(unlikely(!ria))
return NULL;
RRDINSTANCE *ri = rrdinstance_acquired_value(ria);
return string_dup(ri->id);
}
static inline STRING *rrdinstance_create_name_fqdn_v1(RRDINSTANCE_ACQUIRED *ria) {
if(unlikely(!ria))
return NULL;
RRDINSTANCE *ri = rrdinstance_acquired_value(ria);
return string_dup(ri->name);
}
static inline STRING *rrdinstance_create_id_fqdn_v2(RRDINSTANCE_ACQUIRED *ria) {
if(unlikely(!ria))
return NULL;
char buffer[RRD_ID_LENGTH_MAX + 1];
RRDHOST *host = rrdinstance_acquired_rrdhost(ria);
snprintfz(buffer, RRD_ID_LENGTH_MAX, "%s@%s", rrdinstance_acquired_id(ria), host->machine_guid);
return string_strdupz(buffer);
}
static inline STRING *rrdinstance_create_name_fqdn_v2(RRDINSTANCE_ACQUIRED *ria) {
if(unlikely(!ria))
return NULL;
char buffer[RRD_ID_LENGTH_MAX + 1];
RRDHOST *host = rrdinstance_acquired_rrdhost(ria);
snprintfz(buffer, RRD_ID_LENGTH_MAX, "%s@%s", rrdinstance_acquired_name(ria), rrdhost_hostname(host));
return string_strdupz(buffer);
}
inline STRING *query_instance_id_fqdn(QUERY_INSTANCE *qi, size_t version) {
if(!qi->id_fqdn) {
if (version <= 1)
qi->id_fqdn = rrdinstance_create_id_fqdn_v1(qi->ria);
else
qi->id_fqdn = rrdinstance_create_id_fqdn_v2(qi->ria);
}
return qi->id_fqdn;
}
inline STRING *query_instance_name_fqdn(QUERY_INSTANCE *qi, size_t version) {
if(!qi->name_fqdn) {
if (version <= 1)
qi->name_fqdn = rrdinstance_create_name_fqdn_v1(qi->ria);
else
qi->name_fqdn = rrdinstance_create_name_fqdn_v2(qi->ria);
}
return qi->name_fqdn;
}
RRDSET *rrdinstance_acquired_rrdset(RRDINSTANCE_ACQUIRED *ria) {
RRDINSTANCE *ri = rrdinstance_acquired_value(ria);
return ri->rrdset;
}
const char *rrdcontext_acquired_units(RRDCONTEXT_ACQUIRED *rca) {
RRDCONTEXT *rc = rrdcontext_acquired_value(rca);
return string2str(rc->units);
}
RRDSET_TYPE rrdcontext_acquired_chart_type(RRDCONTEXT_ACQUIRED *rca) {
RRDCONTEXT *rc = rrdcontext_acquired_value(rca);
return rc->chart_type;
}
const char *rrdcontext_acquired_title(RRDCONTEXT_ACQUIRED *rca) {
RRDCONTEXT *rc = rrdcontext_acquired_value(rca);
return string2str(rc->title);
}
static void query_target_eval_instance_rrdcalc(QUERY_TARGET_LOCALS *qtl __maybe_unused,
QUERY_NODE *qn, QUERY_CONTEXT *qc, QUERY_INSTANCE *qi) {
RRDSET *st = rrdinstance_acquired_rrdset(qi->ria);
if (st) {
rw_spinlock_read_lock(&st->alerts.spinlock);
for (RRDCALC *rc = st->alerts.base; rc; rc = rc->next) {
switch(rc->status) {
case RRDCALC_STATUS_CLEAR:
qi->alerts.clear++;
qc->alerts.clear++;
qn->alerts.clear++;
break;
case RRDCALC_STATUS_WARNING:
qi->alerts.warning++;
qc->alerts.warning++;
qn->alerts.warning++;
break;
case RRDCALC_STATUS_CRITICAL:
qi->alerts.critical++;
qc->alerts.critical++;
qn->alerts.critical++;
break;
default:
case RRDCALC_STATUS_UNINITIALIZED:
case RRDCALC_STATUS_UNDEFINED:
case RRDCALC_STATUS_REMOVED:
qi->alerts.other++;
qc->alerts.other++;
qn->alerts.other++;
break;
}
}
rw_spinlock_read_unlock(&st->alerts.spinlock);
}
}
static bool query_target_match_alert_pattern(RRDINSTANCE_ACQUIRED *ria, SIMPLE_PATTERN *pattern) {
if(!pattern)
return true;
RRDSET *st = rrdinstance_acquired_rrdset(ria);
if (!st)
return false;
BUFFER *wb = NULL;
bool matched = false;
rw_spinlock_read_lock(&st->alerts.spinlock);
if (st->alerts.base) {
for (RRDCALC *rc = st->alerts.base; rc; rc = rc->next) {
SIMPLE_PATTERN_RESULT ret = simple_pattern_matches_string_extract(pattern, rc->name, NULL, 0);
if(ret == SP_MATCHED_POSITIVE) {
matched = true;
break;
}
else if(ret == SP_MATCHED_NEGATIVE)
break;
if (!wb)
wb = buffer_create(0, NULL);
else
buffer_flush(wb);
buffer_fast_strcat(wb, string2str(rc->name), string_strlen(rc->name));
buffer_fast_strcat(wb, ":", 1);
buffer_strcat(wb, rrdcalc_status2string(rc->status));
ret = simple_pattern_matches_buffer_extract(pattern, wb, NULL, 0);
if(ret == SP_MATCHED_POSITIVE) {
matched = true;
break;
}
else if(ret == SP_MATCHED_NEGATIVE)
break;
}
}
rw_spinlock_read_unlock(&st->alerts.spinlock);
buffer_free(wb);
return matched;
}
static inline void query_instance_release(QUERY_INSTANCE *qi) {
if(qi->ria) {
rrdinstance_release(qi->ria);
qi->ria = NULL;
}
string_freez(qi->id_fqdn);
qi->id_fqdn = NULL;
string_freez(qi->name_fqdn);
qi->name_fqdn = NULL;
}
static inline QUERY_INSTANCE *query_instance_allocate(QUERY_TARGET *qt, RRDINSTANCE_ACQUIRED *ria, size_t qn_slot) {
if(qt->instances.used == qt->instances.size) {
size_t old_mem = qt->instances.size * sizeof(*qt->instances.array);
qt->instances.size = query_target_realloc_size(qt->instances.size, 2);
size_t new_mem = qt->instances.size * sizeof(*qt->instances.array);
qt->instances.array = reallocz(qt->instances.array, new_mem);
__atomic_add_fetch(&netdata_buffers_statistics.query_targets_size, new_mem - old_mem, __ATOMIC_RELAXED);
}
QUERY_INSTANCE *qi = &qt->instances.array[qt->instances.used];
memset(qi, 0, sizeof(*qi));
qi->slot = qt->instances.used;
qt->instances.used++;
qi->ria = rrdinstance_acquired_dup(ria);
qi->query_host_id = qn_slot;
return qi;
}
static inline SIMPLE_PATTERN_RESULT query_instance_matches(QUERY_INSTANCE *qi,
RRDINSTANCE *ri,
SIMPLE_PATTERN *instances_sp,
bool match_ids,
bool match_names,
size_t version,
char *host_node_id_str) {
SIMPLE_PATTERN_RESULT ret = SP_MATCHED_POSITIVE;
if(instances_sp) {
ret = SP_NOT_MATCHED;
if(match_ids)
ret = simple_pattern_matches_string_extract(instances_sp, ri->id, NULL, 0);
if (ret == SP_NOT_MATCHED && match_names && (ri->name != ri->id || !match_ids))
ret = simple_pattern_matches_string_extract(instances_sp, ri->name, NULL, 0);
if (ret == SP_NOT_MATCHED && match_ids)
ret = simple_pattern_matches_string_extract(instances_sp, query_instance_id_fqdn(qi, version), NULL, 0);
if (ret == SP_NOT_MATCHED && match_names)
ret = simple_pattern_matches_string_extract(instances_sp, query_instance_name_fqdn(qi, version), NULL, 0);
if (ret == SP_NOT_MATCHED && match_ids && host_node_id_str[0]) {
char buffer[RRD_ID_LENGTH_MAX + 1];
snprintfz(buffer, RRD_ID_LENGTH_MAX, "%s@%s", rrdinstance_acquired_id(qi->ria), host_node_id_str);
ret = simple_pattern_matches_extract(instances_sp, buffer, NULL, 0);
}
}
return ret;
}
static inline bool query_instance_matches_labels(RRDINSTANCE *ri, SIMPLE_PATTERN *chart_label_key_sp, SIMPLE_PATTERN *labels_sp) {
if ((chart_label_key_sp && !rrdlabels_match_simple_pattern_parsed(
ri->rrdlabels, chart_label_key_sp, '\0', NULL)) ||
(labels_sp && !rrdlabels_match_simple_pattern_parsed(
ri->rrdlabels, labels_sp, ':', NULL)))
return false;
return true;
}
static bool query_instance_add(QUERY_TARGET_LOCALS *qtl, QUERY_NODE *qn, QUERY_CONTEXT *qc,
RRDINSTANCE_ACQUIRED *ria, bool queryable_instance, bool filter_instances) {
RRDINSTANCE *ri = rrdinstance_acquired_value(ria);
if(rrd_flag_is_deleted(ri))
return false;
QUERY_TARGET *qt = qtl->qt;
QUERY_INSTANCE *qi = query_instance_allocate(qt, ria, qn->slot);
if(qt->db.minimum_latest_update_every_s == 0 || ri->update_every_s < qt->db.minimum_latest_update_every_s)
qt->db.minimum_latest_update_every_s = ri->update_every_s;
if(queryable_instance && filter_instances)
queryable_instance = (SP_MATCHED_POSITIVE == query_instance_matches(
qi, ri, qt->instances.pattern, qtl->match_ids, qtl->match_names, qt->request.version, qtl->host_node_id_str));
if(queryable_instance)
queryable_instance = query_instance_matches_labels(ri, qt->instances.chart_label_key_pattern, qt->instances.labels_pattern);
if(queryable_instance) {
if(qt->instances.alerts_pattern && !query_target_match_alert_pattern(ria, qt->instances.alerts_pattern))
queryable_instance = false;
}
if(queryable_instance && qt->request.version >= 2)
query_target_eval_instance_rrdcalc(qtl, qn, qc, qi);
size_t dimensions_added = 0, metrics_added = 0, priority = 0;
if(unlikely(qt->request.rma)) {
if(query_dimension_add(qtl, qn, qc, qi, qt->request.rma, queryable_instance, &metrics_added, priority++))
dimensions_added++;
}
else {
RRDMETRIC *rm;
dfe_start_read(ri->rrdmetrics, rm) {
if(query_dimension_add(qtl, qn, qc, qi, (RRDMETRIC_ACQUIRED *) rm_dfe.item,
queryable_instance, &metrics_added, priority++))
dimensions_added++;
}
dfe_done(rm);
}
if(!dimensions_added) {
qt->instances.used--;
query_instance_release(qi);
return false;
}
else {
if(metrics_added) {
qc->instances.selected++;
qn->instances.selected++;
}
else {
qc->instances.excluded++;
qn->instances.excluded++;
}
}
return true;
}
static inline void query_context_release(QUERY_CONTEXT *qc) {
rrdcontext_release(qc->rca);
qc->rca = NULL;
}
static inline QUERY_CONTEXT *query_context_allocate(QUERY_TARGET *qt, RRDCONTEXT_ACQUIRED *rca) {
if(qt->contexts.used == qt->contexts.size) {
size_t old_mem = qt->contexts.size * sizeof(*qt->contexts.array);
qt->contexts.size = query_target_realloc_size(qt->contexts.size, 2);
size_t new_mem = qt->contexts.size * sizeof(*qt->contexts.array);
qt->contexts.array = reallocz(qt->contexts.array, new_mem);
__atomic_add_fetch(&netdata_buffers_statistics.query_targets_size, new_mem - old_mem, __ATOMIC_RELAXED);
}
QUERY_CONTEXT *qc = &qt->contexts.array[qt->contexts.used];
memset(qc, 0, sizeof(*qc));
qc->slot = qt->contexts.used++;
qc->rca = rrdcontext_acquired_dup(rca);
return qc;
}
static ssize_t query_context_add(void *data, RRDCONTEXT_ACQUIRED *rca, bool queryable_context) {
QUERY_TARGET_LOCALS *qtl = data;
RRDCONTEXT *rc = rrdcontext_acquired_value(rca);
if(rrd_flag_is_deleted(rc))
return 0;
QUERY_NODE *qn = qtl->qn;
QUERY_TARGET *qt = qtl->qt;
QUERY_CONTEXT *qc = query_context_allocate(qt, rca);
ssize_t added = 0;
if(unlikely(qt->request.ria)) {
if(query_instance_add(qtl, qn, qc, qt->request.ria, queryable_context, false))
added++;
}
else if(unlikely(qtl->st && qtl->st->rrdcontext == rca && qtl->st->rrdinstance)) {
if(query_instance_add(qtl, qn, qc, qtl->st->rrdinstance, queryable_context, false))
added++;
}
else {
RRDINSTANCE *ri;
dfe_start_read(rc->rrdinstances, ri) {
if(query_instance_add(qtl, qn, qc, (RRDINSTANCE_ACQUIRED *) ri_dfe.item, queryable_context, true))
added++;
}
dfe_done(ri);
}
if(!added) {
query_context_release(qc);
qt->contexts.used--;
return 0;
}
return added;
}
static inline void query_node_release(QUERY_NODE *qn) {
qn->rrdhost = NULL;
}
static inline QUERY_NODE *query_node_allocate(QUERY_TARGET *qt, RRDHOST *host) {
if(qt->nodes.used == qt->nodes.size) {
size_t old_mem = qt->nodes.size * sizeof(*qt->nodes.array);
qt->nodes.size = query_target_realloc_size(qt->nodes.size, 2);
size_t new_mem = qt->nodes.size * sizeof(*qt->nodes.array);
qt->nodes.array = reallocz(qt->nodes.array, new_mem);
__atomic_add_fetch(&netdata_buffers_statistics.query_targets_size, new_mem - old_mem, __ATOMIC_RELAXED);
}
QUERY_NODE *qn = &qt->nodes.array[qt->nodes.used];
memset(qn, 0, sizeof(*qn));
qn->slot = qt->nodes.used++;
qn->rrdhost = host;
return qn;
}
static ssize_t query_node_add(void *data, RRDHOST *host, bool queryable_host) {
QUERY_TARGET_LOCALS *qtl = data;
QUERY_TARGET *qt = qtl->qt;
QUERY_NODE *qn = query_node_allocate(qt, host);
if(host->node_id) {
if(!qtl->host_node_id_str[0])
uuid_unparse_lower(*host->node_id, qn->node_id);
else
memcpy(qn->node_id, qtl->host_node_id_str, sizeof(qn->node_id));
}
else
qn->node_id[0] = '\0';
// is the chart given valid?
if(unlikely(qtl->st && (!qtl->st->rrdinstance || !qtl->st->rrdcontext))) {
netdata_log_error("QUERY TARGET: RRDSET '%s' given, but it is not linked to rrdcontext structures. Linking it now.", rrdset_name(qtl->st));
rrdinstance_from_rrdset(qtl->st);
if(unlikely(qtl->st && (!qtl->st->rrdinstance || !qtl->st->rrdcontext))) {
netdata_log_error("QUERY TARGET: RRDSET '%s' given, but failed to be linked to rrdcontext structures. Switching to context query.",
rrdset_name(qtl->st));
if (!is_valid_sp(qtl->instances))
qtl->instances = rrdset_name(qtl->st);
qtl->st = NULL;
}
}
qtl->qn = qn;
ssize_t added = 0;
if(unlikely(qt->request.rca)) {
if(query_context_add(qtl, qt->request.rca, true))
added++;
}
else if(unlikely(qtl->st)) {
// single chart data queries
if(query_context_add(qtl, qtl->st->rrdcontext, true))
added++;
}
else {
// context pattern queries
added = query_scope_foreach_context(
host, qtl->scope_contexts,
qt->contexts.scope_pattern, qt->contexts.pattern,
query_context_add, queryable_host, qtl);
if(added < 0)
added = 0;
}
qtl->qn = NULL;
if(!added) {
query_node_release(qn);
qt->nodes.used--;
return false;
}
return true;
}
void query_target_generate_name(QUERY_TARGET *qt) {
char options_buffer[100 + 1];
web_client_api_request_v1_data_options_to_string(options_buffer, 100, qt->request.options);
char resampling_buffer[20 + 1] = "";
if(qt->request.resampling_time > 1)
snprintfz(resampling_buffer, 20, "/resampling:%lld", (long long)qt->request.resampling_time);
char tier_buffer[20 + 1] = "";
if(qt->request.options & RRDR_OPTION_SELECTED_TIER)
snprintfz(tier_buffer, 20, "/tier:%zu", qt->request.tier);
if(qt->request.st)
snprintfz(qt->id, MAX_QUERY_TARGET_ID_LENGTH, "chart://hosts:%s/instance:%s/dimensions:%s/after:%lld/before:%lld/points:%zu/group:%s%s/options:%s%s%s"
, rrdhost_hostname(qt->request.st->rrdhost)
, rrdset_name(qt->request.st)
, (qt->request.dimensions) ? qt->request.dimensions : "*"
, (long long)qt->request.after
, (long long)qt->request.before
, qt->request.points
, time_grouping_tostring(qt->request.time_group_method)
, qt->request.time_group_options ? qt->request.time_group_options : ""
, options_buffer
, resampling_buffer
, tier_buffer
);
else if(qt->request.host && qt->request.rca && qt->request.ria && qt->request.rma)
snprintfz(qt->id, MAX_QUERY_TARGET_ID_LENGTH, "metric://hosts:%s/context:%s/instance:%s/dimension:%s/after:%lld/before:%lld/points:%zu/group:%s%s/options:%s%s%s"
, rrdhost_hostname(qt->request.host)
, rrdcontext_acquired_id(qt->request.rca)
, rrdinstance_acquired_id(qt->request.ria)
, rrdmetric_acquired_id(qt->request.rma)
, (long long)qt->request.after
, (long long)qt->request.before
, qt->request.points
, time_grouping_tostring(qt->request.time_group_method)
, qt->request.time_group_options ? qt->request.time_group_options : ""
, options_buffer
, resampling_buffer
, tier_buffer
);
else if(qt->request.version >= 2)
snprintfz(qt->id, MAX_QUERY_TARGET_ID_LENGTH, "data_v2://scope_nodes:%s/scope_contexts:%s/nodes:%s/contexts:%s/instances:%s/labels:%s/dimensions:%s/after:%lld/before:%lld/points:%zu/time_group:%s%s/options:%s%s%s"
, qt->request.scope_nodes ? qt->request.scope_nodes : "*"
, qt->request.scope_contexts ? qt->request.scope_contexts : "*"
, qt->request.nodes ? qt->request.nodes : "*"
, (qt->request.contexts) ? qt->request.contexts : "*"
, (qt->request.instances) ? qt->request.instances : "*"
, (qt->request.labels) ? qt->request.labels : "*"
, (qt->request.dimensions) ? qt->request.dimensions : "*"
, (long long)qt->request.after
, (long long)qt->request.before
, qt->request.points
, time_grouping_tostring(qt->request.time_group_method)
, qt->request.time_group_options ? qt->request.time_group_options : ""
, options_buffer
, resampling_buffer
, tier_buffer
);
else
snprintfz(qt->id, MAX_QUERY_TARGET_ID_LENGTH, "context://hosts:%s/contexts:%s/instances:%s/dimensions:%s/after:%lld/before:%lld/points:%zu/group:%s%s/options:%s%s%s"
, (qt->request.host) ? rrdhost_hostname(qt->request.host) : ((qt->request.nodes) ? qt->request.nodes : "*")
, (qt->request.contexts) ? qt->request.contexts : "*"
, (qt->request.instances) ? qt->request.instances : "*"
, (qt->request.dimensions) ? qt->request.dimensions : "*"
, (long long)qt->request.after
, (long long)qt->request.before
, qt->request.points
, time_grouping_tostring(qt->request.time_group_method)
, qt->request.time_group_options ? qt->request.time_group_options : ""
, options_buffer
, resampling_buffer
, tier_buffer
);
json_fix_string(qt->id);
}
QUERY_TARGET *query_target_create(QUERY_TARGET_REQUEST *qtr) {
if(!service_running(ABILITY_DATA_QUERIES))
return NULL;
QUERY_TARGET *qt = query_target_get();
if(!qtr->received_ut)
qtr->received_ut = now_monotonic_usec();
qt->timings.received_ut = qtr->received_ut;
if(qtr->nodes && !qtr->scope_nodes)
qtr->scope_nodes = qtr->nodes;
if(qtr->contexts && !qtr->scope_contexts)
qtr->scope_contexts = qtr->contexts;
memset(&qt->db, 0, sizeof(qt->db));
qt->query_points = STORAGE_POINT_UNSET;
// copy the request into query_thread_target
qt->request = *qtr;
query_target_generate_name(qt);
qt->window.after = qt->request.after;
qt->window.before = qt->request.before;
qt->window.options = qt->request.options;
if(query_target_has_percentage_of_group(qt))
qt->window.options &= ~RRDR_OPTION_PERCENTAGE;
rrdr_relative_window_to_absolute(&qt->window.after, &qt->window.before, &qt->window.now);
// prepare our local variables - we need these across all these functions
QUERY_TARGET_LOCALS qtl = {
.qt = qt,
.start_s = now_realtime_sec(),
.st = qt->request.st,
.scope_nodes = qt->request.scope_nodes,
.scope_contexts = qt->request.scope_contexts,
.nodes = qt->request.nodes,
.contexts = qt->request.contexts,
.instances = qt->request.instances,
.dimensions = qt->request.dimensions,
.chart_label_key = qt->request.chart_label_key,
.labels = qt->request.labels,
.alerts = qt->request.alerts,
};
RRDHOST *host = qt->request.host;
// prepare all the patterns
qt->nodes.scope_pattern = string_to_simple_pattern(qtl.scope_nodes);
qt->nodes.pattern = string_to_simple_pattern(qtl.nodes);
qt->contexts.pattern = string_to_simple_pattern(qtl.contexts);
qt->contexts.scope_pattern = string_to_simple_pattern(qtl.scope_contexts);
qt->instances.pattern = string_to_simple_pattern(qtl.instances);
qt->query.pattern = string_to_simple_pattern(qtl.dimensions);
qt->instances.chart_label_key_pattern = string_to_simple_pattern(qtl.chart_label_key);
qt->instances.labels_pattern = string_to_simple_pattern(qtl.labels);
qt->instances.alerts_pattern = string_to_simple_pattern(qtl.alerts);
qtl.match_ids = qt->request.options & RRDR_OPTION_MATCH_IDS;
qtl.match_names = qt->request.options & RRDR_OPTION_MATCH_NAMES;
if(likely(!qtl.match_ids && !qtl.match_names))
qtl.match_ids = qtl.match_names = true;
// verify that the chart belongs to the host we are interested
if(qtl.st) {
if (!host) {
// It is NULL, set it ourselves.
host = qtl.st->rrdhost;
}
else if (unlikely(host != qtl.st->rrdhost)) {
// Oops! A different host!
netdata_log_error("QUERY TARGET: RRDSET '%s' given does not belong to host '%s'. Switching query host to '%s'",
rrdset_name(qtl.st), rrdhost_hostname(host), rrdhost_hostname(qtl.st->rrdhost));
host = qtl.st->rrdhost;
}
}
if(host) {
if(host->node_id)
uuid_unparse_lower(*host->node_id, qtl.host_node_id_str);
else
qtl.host_node_id_str[0] = '\0';
// single host query
qt->versions.contexts_hard_hash = dictionary_version(host->rrdctx.contexts);
qt->versions.contexts_soft_hash = dictionary_version(host->rrdctx.hub_queue);
qt->versions.alerts_hard_hash = dictionary_version(host->rrdcalc_root_index);
qt->versions.alerts_soft_hash = __atomic_load_n(&host->health_transitions, __ATOMIC_RELAXED);
query_node_add(&qtl, host, true);
qtl.nodes = rrdhost_hostname(host);
}
else
query_scope_foreach_host(qt->nodes.scope_pattern, qt->nodes.pattern,
query_node_add, &qtl,
&qt->versions,
qtl.host_node_id_str);
// we need the available db retention for this call
// so it has to be done last
query_target_calculate_window(qt);
qt->timings.preprocessed_ut = now_monotonic_usec();
return qt;
}
ssize_t weights_foreach_rrdmetric_in_context(RRDCONTEXT_ACQUIRED *rca,
SIMPLE_PATTERN *instances_sp,
SIMPLE_PATTERN *chart_label_key_sp,
SIMPLE_PATTERN *labels_sp,
SIMPLE_PATTERN *alerts_sp,
SIMPLE_PATTERN *dimensions_sp,
bool match_ids, bool match_names,
size_t version,
weights_add_metric_t cb,
void *data
) {
RRDCONTEXT *rc = rrdcontext_acquired_value(rca);
if(!rc || rrd_flag_is_deleted(rc))
return 0;
char host_node_id_str[UUID_STR_LEN] = "";
bool proceed = true;
ssize_t count = 0;
RRDINSTANCE *ri;
dfe_start_read(rc->rrdinstances, ri) {
if(rrd_flag_is_deleted(ri))
continue;
RRDINSTANCE_ACQUIRED *ria = (RRDINSTANCE_ACQUIRED *) ri_dfe.item;
if(instances_sp) {
QUERY_INSTANCE qi = { .ria = ria, };
SIMPLE_PATTERN_RESULT ret = query_instance_matches(&qi, ri, instances_sp, match_ids, match_names, version, host_node_id_str);
qi.ria = NULL;
query_instance_release(&qi);
if (ret != SP_MATCHED_POSITIVE)
continue;
}
if(!query_instance_matches_labels(ri, chart_label_key_sp, labels_sp))
continue;
if(alerts_sp && !query_target_match_alert_pattern(ria, alerts_sp))
continue;
dfe_unlock(ri);
RRDMETRIC *rm;
dfe_start_read(ri->rrdmetrics, rm) {
if(rrd_flag_is_deleted(rm))
continue;
if(dimensions_sp) {
SIMPLE_PATTERN_RESULT ret = SP_NOT_MATCHED;
if (match_ids)
ret = simple_pattern_matches_string_extract(dimensions_sp, rm->id, NULL, 0);
if (ret == SP_NOT_MATCHED && match_names && (rm->name != rm->id || !match_ids))
ret = simple_pattern_matches_string_extract(dimensions_sp, rm->name, NULL, 0);
if(ret != SP_MATCHED_POSITIVE)
continue;
}
dfe_unlock(rm);
RRDMETRIC_ACQUIRED *rma = (RRDMETRIC_ACQUIRED *)rm_dfe.item;
ssize_t ret = cb(data, rc->rrdhost, rca, ria, rma);
if(ret < 0) {
proceed = false;
break;
}
count += ret;
}
dfe_done(rm);
if(unlikely(!proceed))
break;
}
dfe_done(ri);
return count;
}
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